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item.rs
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item.rs
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use serde::de::DeserializeOwned;
use serde::Serialize;
use std::marker::PhantomData;
use cosmwasm_std::{to_vec, StdError, StdResult, Storage};
use crate::helpers::{may_deserialize, must_deserialize};
/// Item stores one typed item at the given key.
/// This is an analog of Singleton.
/// It functions just as Path but doesn't ue a Vec and thus has a const fn constructor.
pub struct Item<'a, T> {
// this is full key - no need to length-prefix it, we only store one item
storage_key: &'a [u8],
// see https://doc.rust-lang.org/std/marker/struct.PhantomData.html#unused-type-parameters for why this is needed
data_type: PhantomData<T>,
}
impl<'a, T> Item<'a, T> {
pub const fn new(storage_key: &'a str) -> Self {
Item {
storage_key: storage_key.as_bytes(),
data_type: PhantomData,
}
}
}
impl<'a, T> Item<'a, T>
where
T: Serialize + DeserializeOwned,
{
// this gets the path of the data to use elsewhere
pub fn as_slice(&self) -> &[u8] {
self.storage_key
}
/// save will serialize the model and store, returns an error on serialization issues
pub fn save(&self, store: &mut dyn Storage, data: &T) -> StdResult<()> {
store.set(self.storage_key, &to_vec(data)?);
Ok(())
}
pub fn remove(&self, store: &mut dyn Storage) {
store.remove(self.storage_key);
}
/// load will return an error if no data is set at the given key, or on parse error
pub fn load(&self, store: &dyn Storage) -> StdResult<T> {
let value = store.get(self.storage_key);
must_deserialize(&value)
}
/// may_load will parse the data stored at the key if present, returns `Ok(None)` if no data there.
/// returns an error on issues parsing
pub fn may_load(&self, store: &dyn Storage) -> StdResult<Option<T>> {
let value = store.get(self.storage_key);
may_deserialize(&value)
}
/// Loads the data, perform the specified action, and store the result
/// in the database. This is shorthand for some common sequences, which may be useful.
///
/// It assumes, that data was initialized before, and if it doesn't exist, `Err(StdError::NotFound)`
/// is returned.
pub fn update<A, E>(&self, store: &mut dyn Storage, action: A) -> Result<T, E>
where
A: FnOnce(T) -> Result<T, E>,
E: From<StdError>,
{
let input = self.load(store)?;
let output = action(input)?;
self.save(store, &output)?;
Ok(output)
}
// NOTE: I don't think this is relevent to CosmWasm 0.10?
// /// If you import the proper Item from the remote contract, this will let you read the data
// /// from a remote contract in a type-safe way using WasmQuery::RawQuery.
// ///
// /// Note that we expect an Item to be set, and error if there is no data there
// pub fn query<Q: CustomQuery>(
// &self,
// querier: &QuerierWrapper<Q>,
// remote_contract: Addr,
// ) -> StdResult<T> {
// let request = WasmQuery::Raw {
// contract_addr: remote_contract.into(),
// key: self.storage_key.into(),
// };
// querier.query(&request.into())
// }
}
#[cfg(test)]
mod test {
use super::*;
use cosmwasm_std::testing::MockStorage;
use serde::{Deserialize, Serialize};
use cosmwasm_std::StdError;
#[derive(Serialize, Deserialize, PartialEq, Debug)]
struct Config {
pub owner: String,
pub max_tokens: i32,
}
// note const constructor rather than 2 funcs with Singleton
const CONFIG: Item<Config> = Item::new("config");
#[test]
fn save_and_load() {
let mut store = MockStorage::new();
assert!(CONFIG.load(&store).is_err());
assert_eq!(CONFIG.may_load(&store).unwrap(), None);
let cfg = Config {
owner: "admin".to_string(),
max_tokens: 1234,
};
CONFIG.save(&mut store, &cfg).unwrap();
assert_eq!(cfg, CONFIG.load(&store).unwrap());
}
#[test]
fn remove_works() {
let mut store = MockStorage::new();
// store data
let cfg = Config {
owner: "admin".to_string(),
max_tokens: 1234,
};
CONFIG.save(&mut store, &cfg).unwrap();
assert_eq!(cfg, CONFIG.load(&store).unwrap());
// remove it and loads None
CONFIG.remove(&mut store);
assert_eq!(None, CONFIG.may_load(&store).unwrap());
// safe to remove 2 times
CONFIG.remove(&mut store);
assert_eq!(None, CONFIG.may_load(&store).unwrap());
}
#[test]
fn isolated_reads() {
let mut store = MockStorage::new();
let cfg = Config {
owner: "admin".to_string(),
max_tokens: 1234,
};
CONFIG.save(&mut store, &cfg).unwrap();
let reader = Item::<Config>::new("config");
assert_eq!(cfg, reader.load(&store).unwrap());
let other_reader = Item::<Config>::new("config2");
assert_eq!(other_reader.may_load(&store).unwrap(), None);
}
#[test]
fn update_success() {
let mut store = MockStorage::new();
let cfg = Config {
owner: "admin".to_string(),
max_tokens: 1234,
};
CONFIG.save(&mut store, &cfg).unwrap();
let output = CONFIG.update(&mut store, |mut c| -> StdResult<_> {
c.max_tokens *= 2;
Ok(c)
});
let expected = Config {
owner: "admin".to_string(),
max_tokens: 2468,
};
assert_eq!(output.unwrap(), expected);
assert_eq!(CONFIG.load(&store).unwrap(), expected);
}
#[test]
fn update_can_change_variable_from_outer_scope() {
let mut store = MockStorage::new();
let cfg = Config {
owner: "admin".to_string(),
max_tokens: 1234,
};
CONFIG.save(&mut store, &cfg).unwrap();
let mut old_max_tokens = 0i32;
CONFIG
.update(&mut store, |mut c| -> StdResult<_> {
old_max_tokens = c.max_tokens;
c.max_tokens *= 2;
Ok(c)
})
.unwrap();
assert_eq!(old_max_tokens, 1234);
}
#[test]
fn update_does_not_change_data_on_error() {
let mut store = MockStorage::new();
let cfg = Config {
owner: "admin".to_string(),
max_tokens: 1234,
};
CONFIG.save(&mut store, &cfg).unwrap();
let output = CONFIG.update(&mut store, &|_c| Err(StdError::generic_err("err")));
match output.unwrap_err() {
StdError::GenericErr { .. } => {}
err => panic!("Unexpected error: {:?}", err),
}
assert_eq!(CONFIG.load(&store).unwrap(), cfg);
}
#[test]
fn update_supports_custom_errors() {
#[derive(Debug)]
enum MyError {
Std(StdError),
Foo,
}
impl From<StdError> for MyError {
fn from(original: StdError) -> MyError {
MyError::Std(original)
}
}
let mut store = MockStorage::new();
let cfg = Config {
owner: "admin".to_string(),
max_tokens: 1234,
};
CONFIG.save(&mut store, &cfg).unwrap();
let res = CONFIG.update(&mut store, |mut c| {
if c.max_tokens > 5000 {
return Err(MyError::Foo);
}
if c.max_tokens > 20 {
return Err(StdError::generic_err("broken stuff").into()); // Uses Into to convert StdError to MyError
}
if c.max_tokens > 10 {
to_vec(&c)?; // Uses From to convert StdError to MyError
}
c.max_tokens += 20;
Ok(c)
});
match res.unwrap_err() {
MyError::Std(StdError::GenericErr { .. }) => {}
err => panic!("Unexpected error: {:?}", err),
}
assert_eq!(CONFIG.load(&store).unwrap(), cfg);
}
#[test]
fn readme_works() -> StdResult<()> {
let mut store = MockStorage::new();
// may_load returns Option<T>, so None if data is missing
// load returns T and Err(StdError::NotFound{}) if data is missing
let empty = CONFIG.may_load(&store)?;
assert_eq!(None, empty);
let cfg = Config {
owner: "admin".to_string(),
max_tokens: 1234,
};
CONFIG.save(&mut store, &cfg)?;
let loaded = CONFIG.load(&store)?;
assert_eq!(cfg, loaded);
// update an item with a closure (includes read and write)
// returns the newly saved value
let output = CONFIG.update(&mut store, |mut c| -> StdResult<_> {
c.max_tokens *= 2;
Ok(c)
})?;
assert_eq!(2468, output.max_tokens);
// you can error in an update and nothing is saved
let failed = CONFIG.update(&mut store, |_| -> StdResult<_> {
Err(StdError::generic_err("failure mode"))
});
assert!(failed.is_err());
// loading data will show the first update was saved
let loaded = CONFIG.load(&store)?;
let expected = Config {
owner: "admin".to_string(),
max_tokens: 2468,
};
assert_eq!(expected, loaded);
// we can remove data as well
CONFIG.remove(&mut store);
let empty = CONFIG.may_load(&store)?;
assert_eq!(None, empty);
Ok(())
}
}